| node1 | node2 | node1 accession | node2 accession | node1 annotation | node2 annotation | score |
| AT1G79470 | BCA3 | AT1G79470.1 | AT1G23730.1 | Inosine-5’-monophosphate dehydrogenase 1; Catalyzes the conversion of inosine 5’-phosphate (IMP) to xanthosine 5’-phosphate (XMP), the first committed and rate- limiting step in the de novo synthesis of guanine nucleotides, and therefore plays an important role in the regulation of cell growth | Beta carbonic anhydrase 3; Reversible hydration of carbon dioxide; Belongs to the beta-class carbonic anhydrase family | 0.769 |
| AT1G79470 | BCA4 | AT1G79470.1 | AT1G70410.2 | Inosine-5’-monophosphate dehydrogenase 1; Catalyzes the conversion of inosine 5’-phosphate (IMP) to xanthosine 5’-phosphate (XMP), the first committed and rate- limiting step in the de novo synthesis of guanine nucleotides, and therefore plays an important role in the regulation of cell growth | Beta carbonic anhydrase 4; Reversible hydration of carbon dioxide. Together with BCA1, involved in the CO(2) signaling pathway which controls gas- exchange between plants and the atmosphere by modulating stomatal development and movements. Promotes water use efficiency; Belongs to the beta-class carbonic anhydrase family | 0.769 |
| AT3G56160 | AT5G58330 | AT3G56160.1 | AT5G58330.1 | Probable sodium/metabolite cotransporter BASS4, chloroplastic; May function as sodium-coupled metabolite transporter across the chloroplast envelope | Lactate/malate dehydrogenase family protein; The chloroplastic, NADP-dependent form is essential for the photosynthesis C4 cycle, which allows plants to circumvent the problem of photorespiration. In C4 plants, NADP-MDH activity acts to convert oxaloacetate to malate in chloroplasts of mesophyll cells for transport to the bundle sheath cells (Probable). Plays an essential role in the regulation of catalase activity and the accumulation of a hydrogen peroxide-dependent signal by transmitting the redox state of the chloroplast to other cell compartments; Belongs to the LDH/MDH superfamil [...] | 0.589 |
| AT3G56160 | BCA3 | AT3G56160.1 | AT1G23730.1 | Probable sodium/metabolite cotransporter BASS4, chloroplastic; May function as sodium-coupled metabolite transporter across the chloroplast envelope | Beta carbonic anhydrase 3; Reversible hydration of carbon dioxide; Belongs to the beta-class carbonic anhydrase family | 0.761 |
| AT3G56160 | NHD2 | AT3G56160.1 | AT1G49810.1 | Probable sodium/metabolite cotransporter BASS4, chloroplastic; May function as sodium-coupled metabolite transporter across the chloroplast envelope | Sodium/proton antiporter 2; Na(+)/H(+) antiporter that extrudes sodium in exchange for external protons | 0.910 |
| AT5G58330 | AT3G56160 | AT5G58330.1 | AT3G56160.1 | Lactate/malate dehydrogenase family protein; The chloroplastic, NADP-dependent form is essential for the photosynthesis C4 cycle, which allows plants to circumvent the problem of photorespiration. In C4 plants, NADP-MDH activity acts to convert oxaloacetate to malate in chloroplasts of mesophyll cells for transport to the bundle sheath cells (Probable). Plays an essential role in the regulation of catalase activity and the accumulation of a hydrogen peroxide-dependent signal by transmitting the redox state of the chloroplast to other cell compartments; Belongs to the LDH/MDH superfamil [...] | Probable sodium/metabolite cotransporter BASS4, chloroplastic; May function as sodium-coupled metabolite transporter across the chloroplast envelope | 0.589 |
| AT5G58330 | BCA3 | AT5G58330.1 | AT1G23730.1 | Lactate/malate dehydrogenase family protein; The chloroplastic, NADP-dependent form is essential for the photosynthesis C4 cycle, which allows plants to circumvent the problem of photorespiration. In C4 plants, NADP-MDH activity acts to convert oxaloacetate to malate in chloroplasts of mesophyll cells for transport to the bundle sheath cells (Probable). Plays an essential role in the regulation of catalase activity and the accumulation of a hydrogen peroxide-dependent signal by transmitting the redox state of the chloroplast to other cell compartments; Belongs to the LDH/MDH superfamil [...] | Beta carbonic anhydrase 3; Reversible hydration of carbon dioxide; Belongs to the beta-class carbonic anhydrase family | 0.776 |
| AT5G58330 | BCA4 | AT5G58330.1 | AT1G70410.2 | Lactate/malate dehydrogenase family protein; The chloroplastic, NADP-dependent form is essential for the photosynthesis C4 cycle, which allows plants to circumvent the problem of photorespiration. In C4 plants, NADP-MDH activity acts to convert oxaloacetate to malate in chloroplasts of mesophyll cells for transport to the bundle sheath cells (Probable). Plays an essential role in the regulation of catalase activity and the accumulation of a hydrogen peroxide-dependent signal by transmitting the redox state of the chloroplast to other cell compartments; Belongs to the LDH/MDH superfamil [...] | Beta carbonic anhydrase 4; Reversible hydration of carbon dioxide. Together with BCA1, involved in the CO(2) signaling pathway which controls gas- exchange between plants and the atmosphere by modulating stomatal development and movements. Promotes water use efficiency; Belongs to the beta-class carbonic anhydrase family | 0.647 |
| AT5G58330 | NHD2 | AT5G58330.1 | AT1G49810.1 | Lactate/malate dehydrogenase family protein; The chloroplastic, NADP-dependent form is essential for the photosynthesis C4 cycle, which allows plants to circumvent the problem of photorespiration. In C4 plants, NADP-MDH activity acts to convert oxaloacetate to malate in chloroplasts of mesophyll cells for transport to the bundle sheath cells (Probable). Plays an essential role in the regulation of catalase activity and the accumulation of a hydrogen peroxide-dependent signal by transmitting the redox state of the chloroplast to other cell compartments; Belongs to the LDH/MDH superfamil [...] | Sodium/proton antiporter 2; Na(+)/H(+) antiporter that extrudes sodium in exchange for external protons | 0.596 |
| AT5G58330 | TRX1 | AT5G58330.1 | AT3G51030.1 | Lactate/malate dehydrogenase family protein; The chloroplastic, NADP-dependent form is essential for the photosynthesis C4 cycle, which allows plants to circumvent the problem of photorespiration. In C4 plants, NADP-MDH activity acts to convert oxaloacetate to malate in chloroplasts of mesophyll cells for transport to the bundle sheath cells (Probable). Plays an essential role in the regulation of catalase activity and the accumulation of a hydrogen peroxide-dependent signal by transmitting the redox state of the chloroplast to other cell compartments; Belongs to the LDH/MDH superfamil [...] | Thioredoxin H-type 1; Encodes a cytosolic thioredoxin that reduces disulfide bridges of target proteins by the reversible formation of a disulfide bridge between two neighboring Cys residues present in the active site. Thioredoxins have been found to regulate a variety of biological reactions in prokaryotic and eukaryotic cells | 0.411 |
| AT5G58330 | TRX2 | AT5G58330.1 | AT5G39950.1 | Lactate/malate dehydrogenase family protein; The chloroplastic, NADP-dependent form is essential for the photosynthesis C4 cycle, which allows plants to circumvent the problem of photorespiration. In C4 plants, NADP-MDH activity acts to convert oxaloacetate to malate in chloroplasts of mesophyll cells for transport to the bundle sheath cells (Probable). Plays an essential role in the regulation of catalase activity and the accumulation of a hydrogen peroxide-dependent signal by transmitting the redox state of the chloroplast to other cell compartments; Belongs to the LDH/MDH superfamil [...] | Thioredoxin H2; Encodes a cytosolic thioredoxin that reduces disulfide bridges of target proteins by the reversible formation of a disulfide bridge between two neighboring Cys residues present in the active site. Thioredoxins have been found to regulate a variety of biological reactions in prokaryotic and eukaryotic cells | 0.448 |
| BCA3 | AT1G79470 | AT1G23730.1 | AT1G79470.1 | Beta carbonic anhydrase 3; Reversible hydration of carbon dioxide; Belongs to the beta-class carbonic anhydrase family | Inosine-5’-monophosphate dehydrogenase 1; Catalyzes the conversion of inosine 5’-phosphate (IMP) to xanthosine 5’-phosphate (XMP), the first committed and rate- limiting step in the de novo synthesis of guanine nucleotides, and therefore plays an important role in the regulation of cell growth | 0.769 |
| BCA3 | AT3G56160 | AT1G23730.1 | AT3G56160.1 | Beta carbonic anhydrase 3; Reversible hydration of carbon dioxide; Belongs to the beta-class carbonic anhydrase family | Probable sodium/metabolite cotransporter BASS4, chloroplastic; May function as sodium-coupled metabolite transporter across the chloroplast envelope | 0.761 |
| BCA3 | AT5G58330 | AT1G23730.1 | AT5G58330.1 | Beta carbonic anhydrase 3; Reversible hydration of carbon dioxide; Belongs to the beta-class carbonic anhydrase family | Lactate/malate dehydrogenase family protein; The chloroplastic, NADP-dependent form is essential for the photosynthesis C4 cycle, which allows plants to circumvent the problem of photorespiration. In C4 plants, NADP-MDH activity acts to convert oxaloacetate to malate in chloroplasts of mesophyll cells for transport to the bundle sheath cells (Probable). Plays an essential role in the regulation of catalase activity and the accumulation of a hydrogen peroxide-dependent signal by transmitting the redox state of the chloroplast to other cell compartments; Belongs to the LDH/MDH superfamil [...] | 0.776 |
| BCA3 | BCA4 | AT1G23730.1 | AT1G70410.2 | Beta carbonic anhydrase 3; Reversible hydration of carbon dioxide; Belongs to the beta-class carbonic anhydrase family | Beta carbonic anhydrase 4; Reversible hydration of carbon dioxide. Together with BCA1, involved in the CO(2) signaling pathway which controls gas- exchange between plants and the atmosphere by modulating stomatal development and movements. Promotes water use efficiency; Belongs to the beta-class carbonic anhydrase family | 0.768 |
| BCA3 | CYN | AT1G23730.1 | AT3G23490.1 | Beta carbonic anhydrase 3; Reversible hydration of carbon dioxide; Belongs to the beta-class carbonic anhydrase family | Cyanate hydratase; Catalyzes the reaction of cyanate with bicarbonate to produce ammonia and carbon dioxide | 0.794 |
| BCA3 | HAE | AT1G23730.1 | AT4G28490.1 | Beta carbonic anhydrase 3; Reversible hydration of carbon dioxide; Belongs to the beta-class carbonic anhydrase family | Leucine-rich receptor-like protein kinase family protein; Receptor with a dual specificity kinase activity acting on both serine/threonine- and tyrosine-containing substrates that controls floral organ abscission. May interact with the ’INFLORESCENCE DEFICIENT IN ABSCISSION’ (IDA) ligands family | 0.750 |
| BCA3 | NHD2 | AT1G23730.1 | AT1G49810.1 | Beta carbonic anhydrase 3; Reversible hydration of carbon dioxide; Belongs to the beta-class carbonic anhydrase family | Sodium/proton antiporter 2; Na(+)/H(+) antiporter that extrudes sodium in exchange for external protons | 0.798 |
| BCA3 | TH9 | AT1G23730.1 | AT3G08710.1 | Beta carbonic anhydrase 3; Reversible hydration of carbon dioxide; Belongs to the beta-class carbonic anhydrase family | Thioredoxin H-type 9; Probable thiol-disulfide oxidoreductase that may play a role in intercellular communication due to its ability to move from cell to cell; Belongs to the thioredoxin family. Plant H-type subfamily | 0.750 |
| BCA3 | TRX1 | AT1G23730.1 | AT3G51030.1 | Beta carbonic anhydrase 3; Reversible hydration of carbon dioxide; Belongs to the beta-class carbonic anhydrase family | Thioredoxin H-type 1; Encodes a cytosolic thioredoxin that reduces disulfide bridges of target proteins by the reversible formation of a disulfide bridge between two neighboring Cys residues present in the active site. Thioredoxins have been found to regulate a variety of biological reactions in prokaryotic and eukaryotic cells | 0.750 |
